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// This file is used to register commands that are callable via script languages
SCR_BEGIN_COMMANDS
/////////////////
// SCRIPT_COMMAND_DEF:
// Add new wrapped commands here
/////////////////
// SCR_CMD(Name, Params, CudaFunc) -
// Autogenerates script command `Name` info based on parameters,
// automatically creates typed stub functions that call `CudaFunc`
// in CudaImageProcessing project.
// NOTE: the ScriptCommand_`Name` class must be created in a header with a help
// string definition. For examples see ScrCmd*.h files.
/////////////////
// SCR_CMD_NOPROC(Name, Params)
// Autogenerated script command `Name` info based on parameters,
// no automatic cuda calls are made.
// NOTE: the ScriptCommand_`Name` class must be created in a header with a help
// string definition as well as an execute or process<OutT,InT> function definition.
/////////////////
// These are default commands defined for all script wrappers.
SCR_CMD_NOPROC(Help, SCR_PARAMS(SCR_OPTIONAL(SCR_SCALAR(std::string), command, "")))
SCR_CMD_NOPROC(Info, SCR_PARAMS(SCR_OUTPUT(SCR_STRUCT, cmdInfo)))
SCR_CMD_NOPROC(DeviceCount, SCR_PARAMS(SCR_OUTPUT(SCR_SCALAR(int32_t), numCudaDevices),
SCR_OUTPUT(SCR_STRUCT, memStats)))
SCR_CMD_NOPROC(DeviceStats, SCR_PARAMS(SCR_OUTPUT(SCR_STRUCT, deviceStatsArray)))
SCR_CMD(Closure, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
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SCR_CMD(ElementWiseDifference, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), image1In),
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), image2In),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cElementWiseDifference
)
SCR_CMD(EntropyFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cEntropyFilter
)
SCR_CMD(Gaussian, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_VECTOR(double), sigmas),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cGaussian
)
SCR_CMD(GetMinMax, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_SCALAR(SCR_DYNAMIC), minVal),
SCR_OUTPUT(SCR_SCALAR(SCR_DYNAMIC), maxVal),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cGetMinMax
)
SCR_CMD(HighPassFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_VECTOR(double), sigmas),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cHighPassFilter
)
SCR_CMD(IdentityFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cIdentityFilter
)
SCR_CMD(LoG, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_VECTOR(double), sigmas),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cLoG
)
SCR_CMD(MaxFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cMaxFilter
)
SCR_CMD(MeanFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cMeanFilter
)
SCR_CMD(MedianFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cMedianFilter
)
SCR_CMD(MinFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cMinFilter
)
SCR_CMD(MultiplySum, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cMultiplySum
)
SCR_CMD(Opener, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cOpener
)
SCR_CMD(StdFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cStdFilter
)
SCR_CMD(Sum, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_SCALAR(SCR_DYNAMIC), imageOut),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cSum
)
SCR_CMD(VarFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(int), numIterations, 1),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cVarFilter
)
SCR_CMD(WienerFilter, SCR_PARAMS
(
SCR_INPUT(SCR_IMAGE(SCR_DYNAMIC), imageIn),
SCR_OUTPUT(SCR_IMAGE(SCR_DYNAMIC), imageOut),
SCR_INPUT(SCR_IMAGE_CONVERT(float), kernel),
SCR_OPTIONAL(SCR_SCALAR(double), noiseVariance, -1.0),
SCR_OPTIONAL(SCR_SCALAR(int), device, -1)
),
cWienerFilter
)
SCR_END_COMMANDS